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Prospects and trends in bioelectrochemical systems: Transitioning from CO2 towards a low-carbon circular bioeconomy

J. Annie Modestra, Λεωνίδας Μάτσακας, Ulrika Rova, Paul Christakopoulos

2022Bioresource Technology15 citationsDOIOpen Access PDF

Abstract

Resource scarcity and climate change are the most quested topics in view of environmental sustainability. CO2 sequestration through bioelectrochemical systems is an attractive option for fostering bioeconomy development upon several value-added products generation. This review details the state-of-the-art of bioelectrochemical systems for resource recovery from CO2 along with various biocatalysts capable of utilizing CO2. Two bioprocesses (photo-electrosynthesis and chemolithoelectrosynthesis) were discussed projecting their potential for biobased economy development from CO2. Significance of adopting circular strategies for efficient resource recycling, intensifying product value, integrations/interlinking of multiple process chains for the development of circular bioeconomy were discussed. Existing constrains as well as outlook for near establishment of circular bioeconomy from CO2 is presented by weighing fore-sighted plans with current actions. Need for developing CO2-based circular bioeconomy via innovative business models by analyzing social, technical, environmental and product related aspects are also discussed providing a roadmap of gaps to pursue for attaining practicality.

Topics & Concepts

Circular economySustainabilityResource (disambiguation)Product (mathematics)ScarcityProcess (computing)Environmental economicsBusinessBiochemical engineeringNatural resource economicsEnvironmental resource managementEngineeringEnvironmental scienceComputer scienceEcologyEconomicsOperating systemGeometryMathematicsMicroeconomicsBiologyComputer networkMicrobial Fuel Cells and BioremediationCO2 Reduction Techniques and CatalystsRecycling and Waste Management Techniques
Prospects and trends in bioelectrochemical systems: Transitioning from CO2 towards a low-carbon circular bioeconomy | Litcius